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Saturated output feedback control of free-floating space manipulator with fragility-avoidance prescribed performance

Hang Zhou, Hongji Zhuang, Qiang Shen, Vladimir Yu. Razoumny, Yury N. Razoumny, Shufan Wu

2024Acta Astronautica12 citationsDOIOpen Access PDF

Abstract

This article proposes an output feedback control methodology for the free-floating space manipulator with fragility-avoidance prescribed performance subject to parameter uncertainties, unexpected disturbances, actuator faults, and input saturation. Firstly, asymmetrical prescribed boundaries are utilized to eliminate overshoots, and an artificial potential function-based adjustment strategy for prescribed performance bounds is developed to tackle the fragile problem of traditional prescribed performance control. Subsequently, an extended state observer is constructed to estimate unmeasurable states and disturbances. Finally, the Nussbaum gains are introduced to overcome the time-varying control coefficient arising from actuator faults and input saturation. The stability of the closed-loop system is analyzed via the direct Lyapunov method . Two comparative numerical simulations verify the effectiveness and advancement of the proposed method.

Topics & Concepts

Control theory (sociology)FragilityManipulator (device)Space (punctuation)Control (management)Output feedbackFeedback controlComputer scienceControl engineeringEngineeringPhysicsRobotArtificial intelligenceOperating systemThermodynamicsSpace Satellite Systems and ControlUnderwater Vehicles and Communication SystemsSpacecraft Dynamics and Control